Protective helmet

ABSTRACT

The invention provides a unique construction for a sports helmet, as well as a novel approach to protecting the head of a sports player from head injury. The helmet of this invention is comprised of an outer layer comprised of a flexible material, an inner layer comprised of a flexible material, wherein the outer layer and inner layer define a space layer, wherein the space layer contains a gas, gel or liquid, and wherein the inner layer of the helmet is configured to fit around a human head.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The invention is in the field of protective helmets for sports, themilitary, and the like.

2. Background Art

Sports helmets are well known. Early sports helmets were made ofleather. Modern sports helmets typically have an exterior shell made ofa rigid injection molded resin with an inner layer of padding to protectthe player's head. Some of these conventional sports helmets include aninflatable bladder. See for example U.S. Pat. No. 8,881,315. For otherhelmet constructions, see U.S. Pat. Nos. 8,938,818, 8,947,195, 8,713,716and 8,719,967. The disclosures of the foregoing U.S. patents areincorporated by reference herein.

Virtually all sports and military helmets include a rigid impactresistant shell made of various materials. For example, modern footballhelmets often have a tough rigid impact resistant outer shell made ofpolycarbonate alloy plastic. Another material used widely in protectiveheadgear is ABS polymer (Acrylonitrile Butadiene Styrene). Bicyclehelmets have an outer shell made of an impact absorbing molded expandedpolystyrene foam. Modern military helmets have a rigid impact resistantouter shell containing Kevlar. All of the materials making up the rigidouter shell of such helmets are lightweight, durable, strong, and rigid.The materials have good shock absorbance and impact resistance.

BRIEF SUMMARY OF THE INVENTION

The invention provides a unique construction for a sports helmet, aswell as a novel approach to protecting the head of sports players ormilitary personnel from head injury. The protective helmet of thisinvention does not contain any rigid impact resistant layer such asfound in virtually all helmets known today. The basic construction ofthe helmet of this invention is comprised of an outer layer comprised ofa flexible material, an inner layer comprised of a flexible material,and a space layer defined by and disposed between the outer layer andinner layer. The space layer is sealed so that it is capable ofcontaining a gas, gel or liquid. The inner layer of the helmet isconfigured to fit around a human head. Numerous embodiments of theinvention utilizing this basic construction are described in detailhereinbelow.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 is a left side perspective view of an embodiment of a protectivehelmet 1 of the invention.

FIG. 2 is a front cross-sectional view of the helmet 1 shown in FIG. 1along line A-A. The helmet 1 comprises an outer layer 2, and an innerlayer 3, wherein the outer layer 2 and the inner layer 3 define a spacelayer 4.

FIG. 3 is a front elevational view of the helmet 1 shown in FIG. 1.

FIG. 4 is a right side cross-sectional view of the helmet 1 shown inFIG. 3 along line B-B. The helmet 1 comprises an outer layer 2, and aninner layer 3, wherein the outer layer 2 and the inner layer 3 define aspace layer 4. The layers of the helmet are shown in more detail than inFIG. 2.

FIG. 5 is a right side cross-sectional view of another embodiment of thehelmet 1 according to the invention. The helmet 1 comprises a highstrength fiber outer layer 5, an outer layer 2, and an inner layer 3,wherein the outer layer 2 and the inner layer 3 define a space layer 4.Also provided are provided a plurality of walls 8 which connect theouter layer 2 and the inner layer 3 to form partitions in the spacelayer 4.

FIG. 6 is a right side cross-sectional view of another embodiment of thehelmet 1 according to the invention. The helmet 1 comprises a highstrength fiber outer layer 5, an outer layer 2, and an inner layer 3,wherein the outer layer 2 and the inner layer 3 define a first spacelayer 4. Also provided is a further inner layer 7, wherein the innerlayer 3 and the inner layer 7 define a second space layer 6.

FIG. 7 illustrates an alternative embodiment of a space layer formedfrom a seated elastic tube 9 which is coiled to inside the helmet tosurround the wearer's head. An outer layer covering the coiled elastictube layer 9 is not shown.

DETAILED DESCRIPTION OF THE INVENTION

The helmet of this invention is comprised of an outer layer comprised ofa flexible material, an inner layer comprised of a flexible material,and a space layer defined by and disposed between the outer layer andinner layer. The space layer is a sealed cavity, so that it is capableof containing a gas, gel or liquid. The space layer is sealed so that itmay contain the gas, gel or liquid under pressure. The space layer mayoptionally include a valve, port or other closure device for filling orreleasing the gas, gel or liquid contents therein. For example, thedevice for filling and releasing the gas, gel or liquid from the spacelayer may be an conventional closure device which is known for allowinga container containing a gas, gel or liquid to be opened and closed,e.g. a bicycle tire valve, a closure device found on inflatable swimmingpools, etc. Alternatively the space layer may be filled with the gas,gel or liquid during construction of the space layer so that thecontents are permanently contained in the space layer. The inner layerof the helmet may be configured to fit around a human head.

The helmet of this invention may have any number of additional layers,for example from 3 to 10 layers of material. Each layer of the helmetmay be the same or different. The outer layer and inner layer definingthe space layer may be any layer of the helmet, so long as the innerlayer is more proximate to the wearer's head than the outer layer, andthe outer layer is disposed on the opposite side of the inner layer fromthe wearer's head. Each layer may be a single uniform sheet of material,or a plurality of sheets of material, or each layer may independently becomposed of a plurality of segments which are joined together to createthe layer. The helmet may include more than one space layer.

Each layer of the helmet, other than the space layer, may be comprisedof any suitable flexible material, for example a natural or syntheticfabric material, such as cotton, wool, nylon, silk, vinyl, polyester,polyurethane, rayon, acrylic, rubber, plastic, resin, foam, othernatural or synthetic polymer materials, and mixtures thereof. Preferablythe material is elastic. The combined thickness of all layers of thehelmet is not limited but is preferably 2 inches to 7 inches inthickness. The thickness of each layer of the helmet is not limited, butthe inner and outer layers arc preferably 0.01 inch to 0.5 inch thick,the space layer containing air or liquid is preferably inch to ¾ inches,and the space layer containing gel is preferably ½ inch.

Each layer of the helmet may be coated on one or both sides with apaint, coloring agent, waterproofing agent, wear resistant agent, waterresistant agent, etc. Preferably the outermost layer of the helmet isconstructed so that it may decorated with a preselected color, teamlogo, design, etc.

The space layer defined by the outer and inner layers may contain a gas,such as O₂ or N₂, or a gas mixture such as air. The space layeralternatively may contain a liquid, such as water, an aqueous solution,a gel, a pliable foam and the like. The gas may be pressurized.Preferably the space layer contains pressurized air. The pressure of thegas may be between 1 atm to 100 atm, preferably 2 atm to 35 atm.

The helmet may be adapted for any sport, for example football, lacrosse,hockey, horse racing, motorcycle riding, bicycle riding, etc. The helmetmay also be adapted for military purposes, automotive racing, etc. Thehelmet may include heat pads or coolers, to maintain the head of thewearer at a comfortable temperature. The helmet may include a face bar,chin strap, face shield, cellular telephone components, a speaker, amicrophone, wireless interim components, and/or a radio. The helmet maycontains its own power source, such as a battery, or may have anelectrical, cord to connect to a power source, carried on the wearer oraccessible near the wearer, such as in the wearer's vehicle. Theseaccessories may be attached to one or more layer of the helmet of thisinvention by any conventional means, for example by glue, stitching,velcro, etc.

The layers of the helmet forming a space layer may be joined at theperipheral edges by any suitable means, for example by mechanical,thermal or chemical means, such as stitching, glue, fusion, molding,etc. The layers may be optionally joined to one another at otherlocations away from the peripheral edges, for example by walls 8 asshown in FIG. 5. Walls 8 may connect the inner layer 3 and outer layer 2to form partitions in the space layer 4. Partitions may prevent totalleakage of the contents of the space layer in the event there is apuncture or rupture of the inner layer or outer layer forming onepartition section of the space layer. Layers of the helmet which do notform a space layer and are adjacent to each other, may be adhered orconnected to each other by glue, foam, velcro, etc., or the layers maysimply contact each other and not adhered to each other.

The outer and inner layers may define the space layer by any means toprovide a secure container for the gas, gel or liquid. Alternatively,the outer and inner layers may define the space layer, and the spacelayer may contain an inflatable bladder to contain the air or liquid.Inflatable bladders are described in the U.S. patents discussed above.The helmet of this invention uses an internal air or liquid layer forimpact reduction. Preferably the helmet of this invention does notinclude elastically resilient impressions of carbon fiber or carbonnanotube layers between the outer and inner layers as taught by U.S.Pat. No. 8,713,716, FIGS. 15-17, which U.S. patent disclosure isincorporated by reference herein.

According to the invention, the helmet has no rigid impact resistantlayer. All layers of the helmet are flexible. The term “rigid” layermeans that the layer does not bend under a normal force applied to thelayer, in other words, a rigid layer is not forced out of shape, and isnot flexible. Rigid layers are characteristic of conventional protectivehelmets, which have an outer shell that is stiff, hard, firm, inelasticand inflexible.

For example, in a football helmet of this invention, the helmet of theinvention has no layer which is rigid and which does not bend when aplayer is struck on the helmet by another player's helmet or body. Everylayer of the helmet is flexible. The term “flexible” layer means thatthe layer does bend without breaking and is forced out of shape under anormal force applied to the layer. The impact absorbing component of thehelmet is the space layer containing the gas, gel or liquid.

One or more layers of the helmet may contain a high strength syntheticfiber, such as Kevlar. When Kevlar is spun, the resulting fiber has atensile strength of about 3,620 MPa, and a relative density of 1.44.Kevlar and similar fibers are a common component of many products, suchas bullet proof vests and tires. This high-strength material may beincorporated into the layer as a fiber or as a sheet. The layer may betotally comprised of the high strength material, or be an ingredient ofthe layer in a composite material. Any high strength fiber similar toKevlar is suitable for use in one or more layers of the helmet.Preferably the outer layer comprises a high strength synthetic fibermaterial.

The helmet of this invention is preferably constructed to cover thewearer's head, excluding the face portion. This construction is popularin sports helmets and essentially covers the head of the wearer from theforehead, over the ears, and the top of the neck. The helmet mayoptionally be larger in some uses, such as military uses, and race cardriving, to cover the neck and/or the face, when these areas are desiredto be protected. The helmet may include openings, such as over the eyes,nose, ears, or other locations, which openings are constructed throughall layers of the helmet, to allow for sight, hearing, cooling,breathing, heat escape, etc.

The space layer is not restricted to being formed from an outer andinner layer. Any construction of the space layer may be used in thepresent invention so long it is capable of containing a gas, gel orliquid. An alternative embodiment of the invention for forming a spacelayer uses an elastic tube. The elastic tube is sealed at both ends sothat it may contain a gas, gel or liquid. Preferably the elastic tube isfilled with compressed air as a protective air layer. The elastic tubemay be similar in size and composition to a typical one inch bicycletire inner tube. Preferably the tube has closed ends for forming thesealed cavity to be filled with gas, gel or liquid. The tube may includea valve or other closure device for filling and emptying the cavity ofthe gas, gel or liquid. The tube may be folded or inserted into thehelmet any configuration. The tube should be capable of being inflatedat a pressure of 5 to 150 psi of compressed air. The tube may beprovided with a means for inflating or deflating the tube withcompressed air, such as a bicycle valve or any known valve mechanism.The elastic tube is preferably coiled to fit around the wearer's headand is disposed inside an outer layer of the helmet. See FIG. 7. Forexample, the inner tube may be coiled in the shape of a “snake coil”.The coiled tube absorbs the shock of an impact and diffuses the impactforces over the entire surface of the head, not just at the point ofimpact.

Another preferred embodiment of the invention for forming a space layeruses two elastic layers, similar to an elastic bathing or swimming cap,wherein a first cap is inserted inside of a second cap, and the firstand second cap edges are sealed at the edges to form the space layer.The space layer preferably contains a compressed air or a gel. When thesealed layers hold air, the sealed layers may be capable of beinginflated at a pressure of 5 to 150 psi of compressed air. The sealedlayers may be provided with a means for inflating or deflating thelayers with compressed air, such as a bicycle valve or any known valvemechanism. A similar valve device may be used if the sealed layers arefilled with a gel. The gel may be selected so that it is capable ofbeing heated or cooled and retaining such temperature. Thus a wearer mayheat the space layer containing the gel, or the helmet itself, and usethe helmet in the winter to provide warmth to the head. In addition, awearer may chill the gel and use the helmet in the summer to providecooling to the head.

A preferred embodiment of the invention is constructed of an outer layermade from Kevlar, and a space layer which is disposed inside the Kevlarlayer and which is made of the coiled elastic tube filled withcompressed air.

Another preferred embodiment of the invention is constructed of an outerlayer made from Kevlar, a first space layer disposed inside the Kevlarlayer and made of the coiled elastic tube filled with compressed air asa first air protective layer, and a second space layer disposed insidethe first space layer, wherein the second space layer is formed of twosealed elastic layers filled with compressed air which form a second airprotective layer.

Another preferred embodiment of the invention is constructed of an outerlayer made from Kevlar, a first space layer inside the Kevlar layer andmade of the coiled elastic tube filled with compressed air as an outerair protective layer, a second space layer disposed inside the firstspace layer, wherein the second space layer is formed of two sealedelastic layers filled with gel to form an inner gel protective layer.

Another preferred embodiment of the invention is constructed of an outerlayer made from Kevlar, a first space layer inside the Kevlar layer andmade of the coiled elastic tube filled with compressed air as an outerair protective layer, a second space layer disposed inside the firstspace layer, wherein the second space layer is formed of two sealedelastic layers filled with gel to form an inner gel protective layer,and an innermost layer disposed inside the second space layer which is aremovable and washable absorbent fabric liner.

Another preferred embodiment of the invention is constructed of an outerlayer made from Kevlar, a first space layer inside the Kevlar layer andmade of the coiled elastic tube filled with compressed air as an outerair protective layer, a second space layer disposed inside the firstspace layer, wherein the second space layer is formed of two sealedelastic layers filled with compressed air which form a second airprotective layer, a third space layer disposed inside the second spacelayer, wherein the third space layer is formed of two sealed elasticlayers filled with gel to form an inner gel protective layer, and aninnermost layer disposed inside the third space layer which is aremovable and washable absorbent fabric liner.

One major advantage of the invention is that the helmet of thisinvention is very light. For example, an NFL helmet weighs 17-20 lbs. Incontrast, the helmet of this invention can be designed to weigh about1-10 lbs, preferably 2-6 lbs, more preferably 2-3 lbs. Due to its largerweight, the NFL helmet has a large mass on a collision, which creates alarge force on the human skull on impact. The NFL helmet weight itselfgreatly contributes to the risk of concussion. Thus the helmet of thisinvention greatly reduces the risk of concussion based upon its reducedweight. Since all conventional helmets are based upon a similarconstruction as the NFL helmet, using a heavy rigid layer or outershell, all conventional helmets suffer from this same risk of concussionon impact. The helmet of the present invention is a revolutionary designfor protecting the head of the wearer, using an air pressure filledlayer to absorb impact, while reducing the weight of the helmet.

1-11. (canceled)
 12. A protective helmet for reducing a risk ofconcussion, comprising: an outer layer comprised of a flexible materialadapted to extend on an entire head of a wearer when worn, an innerlayer comprised of a flexible material adapted to extend on an entirehead of a wearer when worn, wherein the outer layer and inner layerdefine an uninterrupted space layer, wherein the space layer is a sealedcavity which contains air, and wherein the helmet has no rigid impactresistant layer.
 13. The helmet according to claim 12, wherein theflexible material of the outer layer comprises a high strength syntheticfiber material.
 14. The helmet according to claim 12, wherein the spacelayer contains pressurized air.
 15. The helmet according to claim 12,wherein the outer layer and inner layer comprise the same or differentflexible materials.
 16. The helmet according to claim 13, wherein thehigh strength synthetic fiber material has a tensile strength of about3,620 MPa.
 17. The helmet according to claim 14, wherein the airpressure is 5 to 150 psi.
 18. The helmet according to claim 12, whereinthe helmet optionally includes one or more of a valve, port or closuredevice for filling or releasing the air; a paint, coloring agent,waterproofing agent, wear resistant agent; a team logo; battery,electrical cord; a face bar, chin strap, face shield, cellular telephonecomponents, a speaker, a microphone, wireless internet components, heatpad, cooler, or a radio.
 19. The helmet according to claim 12, whichcovers the wearer's head, excluding the face portion, and which includesopenings constructed through helmet to allow for hearing.
 20. The helmetaccording to claim 12, wherein the outer and inner layers are comprisedof cotton, wool, nylon, silk, vinyl, polyester, polyurethane, rayon,acrylic, rubber, plastic, resin, foam, and mixtures thereof.
 21. Thehelmet according to claim 12, wherein the outer and inner layers areelastic.
 22. The helmet according to claim 12, which includes a secondouter layer and second inner layer defining a second space layer,wherein the second space layer contains pressurized air, and wherein theair pressure is 5 to 150 psi.
 23. The helmet according to claim 22,which includes a third outer layer and third inner layer defining athird space layer, wherein the third space layer contains pressurizedair, and wherein the air pressure is 5 to 150 psi.